Quinten Felsch1, Victoria Mai1, Holger Durchholz2, Matthias Flury3, Maximilian Lenz1, Carl Capellen1, Laurent Audigé4. 1. Shoulder and Elbow Surgery, Schulthess Klinik, Zurich, Switzerland. 2. Research and Development, Schulthess Klinik, Zurich, Switzerland; Klinik Gut, St Moritz, Switzerland. 3. Center for Orthopedics & Neurosurgery, In-Motion, Wallisellen, Switzerland. 4. Shoulder and Elbow Surgery, Schulthess Klinik, Zurich, Switzerland; Research and Development, Schulthess Klinik, Zurich, Switzerland; Department of Orthopaedic Surgery and Traumatology, University Hospital of Basel, Basel, Switzerland. Electronic address: laurent.audige@kws.ch.
Abstract
PURPOSE: To report complications after arthroscopic rotator cuff repairs (ARCRs) in a large patient cohort based on clinical application of a newly defined core event set (CES) and severity grading. METHODS: Consecutive primary ARCRs documented in a local clinical registry between February 2010 and September 2016 were included. Clinicians documented adverse events (AEs) reported until the final, 6-month postoperative follow-up according to the CES. The CES is an organized list of relevant AEs sorted into 3 intraoperative event groups (device, osteochondral, and soft tissue) and 9 postoperative event groups (device, osteochondral, pain, rotator cuff, surgical-site infection, peripheral neurologic, vascular, superficial soft tissue, and deep soft tissue). Severity was determined using an adaptation of the Clavien-Dindo classification. Cumulative complication risks were calculated per event group and stratified by severity and rotator cuff tear extent. RESULTS: A total of 1,661 repairs were documented in 1,594 patients (mean age, 57 years [standard deviation, 9 years]; 38% women); 21% involved partial tears. All events were recorded according to the CES. Intraoperative events occurred in 2.2% of repairs. We identified 329 postoperative events in 307 repairs (305 patients); 93% had 1 AE. The cumulative AE risk at 6 months was 18.5%; AE risks were 21.8% for partial tears, 15.8% for full-thickness single-tendon tears, 18.0% for tears with 2 ruptured tendons, and 25.6% for tears with 3 ruptured tendons. AE risks per event group were as follows: 9.4% for deep soft tissue, with shoulder stiffness (7.6%) being the most common event; 3.4% for persistent or worsening pain; 3.1% for rotator cuff defects; 1.7% for neurologic lesions; 0.8% for surgical-site infection; 0.7% for device; 0.4% for osteochondral; 0.2% for superficial soft tissue, and 0.1% for vascular. Most AEs had severity grades I (160 [49%]) and II (117 [36%]). CONCLUSIONS: Comprehensive local AE documentation according to the CES and severity grading was possible and showed that about one-fifth of ARCRs were affected, mostly by one AE of low severity. Shoulder stiffness was the most frequent event. LEVEL OF EVIDENCE: Level IV, case series.
PURPOSE: To report complications after arthroscopic rotator cuff repairs (ARCRs) in a large patient cohort based on clinical application of a newly defined core event set (CES) and severity grading. METHODS: Consecutive primary ARCRs documented in a local clinical registry between February 2010 and September 2016 were included. Clinicians documented adverse events (AEs) reported until the final, 6-month postoperative follow-up according to the CES. The CES is an organized list of relevant AEs sorted into 3 intraoperative event groups (device, osteochondral, and soft tissue) and 9 postoperative event groups (device, osteochondral, pain, rotator cuff, surgical-site infection, peripheral neurologic, vascular, superficial soft tissue, and deep soft tissue). Severity was determined using an adaptation of the Clavien-Dindo classification. Cumulative complication risks were calculated per event group and stratified by severity and rotator cuff tear extent. RESULTS: A total of 1,661 repairs were documented in 1,594 patients (mean age, 57 years [standard deviation, 9 years]; 38% women); 21% involved partial tears. All events were recorded according to the CES. Intraoperative events occurred in 2.2% of repairs. We identified 329 postoperative events in 307 repairs (305 patients); 93% had 1 AE. The cumulative AE risk at 6 months was 18.5%; AE risks were 21.8% for partial tears, 15.8% for full-thickness single-tendon tears, 18.0% for tears with 2 ruptured tendons, and 25.6% for tears with 3 ruptured tendons. AE risks per event group were as follows: 9.4% for deep soft tissue, with shoulder stiffness (7.6%) being the most common event; 3.4% for persistent or worsening pain; 3.1% for rotator cuff defects; 1.7% for neurologic lesions; 0.8% for surgical-site infection; 0.7% for device; 0.4% for osteochondral; 0.2% for superficial soft tissue, and 0.1% for vascular. Most AEs had severity grades I (160 [49%]) and II (117 [36%]). CONCLUSIONS: Comprehensive local AE documentation according to the CES and severity grading was possible and showed that about one-fifth of ARCRs were affected, mostly by one AE of low severity. Shoulder stiffness was the most frequent event. LEVEL OF EVIDENCE: Level IV, case series.
Authors: Laurent Audigé; Heiner C C Bucher; Soheila Aghlmandi; Thomas Stojanov; David Schwappach; Sabina Hunziker; Christian Candrian; Gregory Cunningham; Holger Durchholz; Karim Eid; Matthias Flury; Bernhard Jost; Alexandre Lädermann; Beat Kaspar Moor; Philipp Moroder; Claudio Rosso; Michael Schär; Markus Scheibel; Christophe Spormann; Thomas Suter; Karl Wieser; Matthias Zumstein; Andreas M Müller Journal: BMJ Open Date: 2021-04-22 Impact factor: 2.692
Authors: Thomas Stojanov; Linda Modler; Andreas M Müller; Soheila Aghlmandi; Christian Appenzeller-Herzog; Rafael Loucas; Marios Loucas; Laurent Audigé Journal: BMC Musculoskelet Disord Date: 2022-01-28 Impact factor: 2.362